JPH07336636A - Video signal processing unit - Google Patents

Abstract

PURPOSE:To minimize the deterioration in the image quality in the case of coding and decoding. CONSTITUTION:An MPEG coder 8 receiving a video signal from a digital VTR1 encodes the signal and provides an output of a compressed video signal, which iis recorded on an HDD 9. Plural compressed video signals are recorded on the HDD 9 and addresses of the video signals are stored by a controller 6. MPEG decoders 12, 14 decode the compressed video signal read from the HDD 9. After the decoded signals is edited and processed by a video processing unit 3 and the composite video signal is fed to a digital VTR 10 via a switch 7. The composite video signal recorded on the digital VTR 10 is fed to the video image processing unit 3 without being decoded via the switch 13. When the end of edit processing is commanded from an input device 5, the composite video signal from the video processing unit 3 is fed to the HDD 9 via the switch 7 and the MPEG coder 8, on which the signal is stored as the compressed composite video signal.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention relates to, for example, MPEG2.
(Moving Picture image coding Experts Gruop phase
2) In an editing device that can store and reproduce coded data of a format, encoding and / or decoding can be repeated by providing switches in the video signal input section and video signal output section to prevent image deterioration. The present invention relates to a video signal processing device that does not exist.

[0002]

2. Description of the Related Art The applicant of the present invention discloses in Japanese Patent Application Laid-Open No. 59-207788.
There is proposed a video signal editing switcher for switching a plurality of video signals to produce one program, as described in Japanese Patent Laid-Open Publication No. Hei. This video signal editing switcher uses a special mark generator to add various effects to be inserted at the edit point of a video tape by adding a simple mark signal generator composed of a digital circuit. Since it is possible to suggest without an instruction and make the editor recognize, it is possible to reduce the cost of the editing device.

First, the proposed video signal editing switcher will be described with reference to FIG. For example,
It is assumed that the combined video signal ABCD is created by combining the video signals A, B, C, and D with the system shown in FIG. In this case, the VT connected to the switcher 56
VT from among R (Video Tape Recorder) 51-55
The video signal A of R51 and the video signal B of VTR52 are selected by the switcher 56 and supplied to the video effect device 57.

The video effect device 57 creates a composite video signal AB from the video signals A and B while watching the monitor 58 and supplies the composite video signal AB to the VTR 55. Next, VTR53
Video signal C and the composite video signal AB of the VTR 55 are selected by the switcher 56, and the selected video signal C and composite video signal AB are supplied to the video effect device 57. The video effect device 57 creates the composite video signal ABC as described above and supplies it to the VTR 55.

Further, the video signal D of the VTR 54 and the VTR
The composite video signal ABC of 55 is selected by the switcher 56, and the selected video signal D and the composite video signal ABC are selected.
Is supplied to the video effect device 57. The supplied video effect device 57 creates the composite image ABCD as described above and supplies it to the VTR 55.

[0006]

In this prior art example, four VTRs are provided for supplying video signals,
When creating a composite video signal from video signals of more than the number of VTRs, it is necessary to replace the magnetic tape, which requires manpower. Further, in the VTR, there is a problem that it takes a long time to find the video signal and the composite video signal, and the efficiency becomes poor when the preview is repeated many times. Furthermore, there is a problem in that the image quality of the composite video signal created due to repeated recording and reproduction is degraded.

Therefore, according to the present invention, a composite video signal can be easily created regardless of the number of video signals.
When a composite video signal is created from a plurality of video signals coded in the MPEG2 format, a minimum amount of decoding and / or coding is performed to minimize the deterioration of image quality. An object is to provide a signal processing device.

[0008]

According to the present invention, a storage device for storing video data that is randomly accessible and an encoder for compressing the video data is used to compress the storage device. A first data path for recording the recorded video data, a second data path for recording the video data to the storage device without passing through the encoder, a first data path, and a second data path. A first switching means for switching and a decoder for simultaneously outputting at least two types of reproduced video data recorded in the storage device and decoding the reproduced video data are provided, and the reproduction is performed via the decoder. A video signal processing device, characterized in that second switching means for switching between a third data path for decoding video data and a fourth data path not passing through the decoder is provided in the preceding stage of the decoder. Is.

[0009]

As one of compression methods, an HDD (Hard Disk Drive) in which a plurality of encoded video data are recorded
The video data to be edited and processed is read out, and the read-out video data is decoded and then edited and processed. The edited video data is recorded in the HDD without being encoded, and when the edit data is further processed, the video data is not decoded and is edited. When the editing process on the video data is completed, the video data is encoded and recorded in the HDD, and can be taken out and decoded when necessary for use and viewing.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a video signal processing device according to the present invention will be described below with reference to the drawings. Figure 1
FIG. 3 shows a block diagram of an example of a video signal processing device of the present invention. A video signal is supplied from the digital VTR indicated by 1 to the video storing / reproducing apparatus 2, and in the video storing / reproducing apparatus 2, a video signal to be edited is selected from a plurality of supplied video signals by an instruction from the input device 5. And is supplied to the video signal processing device 3. In the video signal processing device 3,
While using the monitor 4, editing processing such as wipe and fade-in / out is performed. The video signal that has been edited and edited, that is, the composite video signal, is again stored in the video storage / playback apparatus 2.
Is supplied to the input device 5 and the end instruction is input from the input device 5, this operation is repeated.

The internal block diagram of the video storage / playback apparatus 2 will now be described. The video signal supplied from the digital VTR 1 is supplied to the switch 7, and the switch 7
The video signal controlled by the controller 6 is supplied to the MPEG encoder 8 or the digital VT.
It is switched whether to be supplied to R10. here,
In the video processing device 3 in the latter stage, it is difficult to edit and process the signal in the format of the compressed video signal,
It is made in the format of the video signal. Therefore, the output of the video processing device 3 is a video signal, and the digital VTR 10 is provided to store and hold this output video signal.

When the video signal is supplied from the digital VTR 1 to the switch 7, the switch 7 is switched under the control of the controller 6 and the video signal is supplied to the MPEG encoder 8. In addition, switch the video processing device 3
When the composite video signal is supplied from the controller 6,
The switch 7 is switched under the control of the digital V
The data is supplied to TR10 and recorded. Where MPE
In the G encoder 8, by using MPEG2,
The supplied video signal is compressed.

A plurality of compressed video signals are supplied from the MPEG encoder 8 to the HDD 9, and the HDD 9 controls the controller 6 to record the compressed video signals in a transport stream format having 1 packet of 188 bytes. Done. Also, the controller 6
By the control, the address of the compressed video signal is stored, and the two compressed video signals to be edited are selectively read from the HDD 9. In order to output two compressed video signals in parallel in this way, a buffer memory may be used. One of the compressed video signals is supplied to the switch 11, and the other is supplied to the MPEG decoder 12. Also,
The composite video signal reproduced from the digital VTR 10 is supplied to the switch 11. In the switch 11, one of the composite video signal supplied and the compressed video signal from the HDD 9 is supplied to the switch 13 under the control of the controller 6. .

The switch 13 is controlled by the controller 6 so that the compressed video signal or the composite video signal is MP
Whether or not it is supplied to the EG decoder 14 is switched. Here, when the compressed video signal supplied from the HDD 9 is supplied to the switch 13 via the switch 11,
The switch 13 is switched to the MPEG decoder 14 side. When the composite video signal supplied from the digital VTR 10 is supplied to the switch 13 via the switch 11, the switch 13 is switched to the video processing device 3 side. That is, when the composite video signal is supplied to the switch 13, the composite video signal is supplied to the video processing device 3 without being supplied to the MPEG decoder 14.

In the MPEG decoders 12 and 13,
The supplied compressed video signal is decoded, and the decoded compressed video signal is supplied to the video processing device 3 as a digitized video signal. In the video processing device 3, editing processing such as fade-in, fade-out, and wipe is performed on the supplied video signal and / or the composite video signal. Here, when the input device 5 instructs the controller 6 to end, the composite video signal supplied from the video processing device 3 to the switch 7 is supplied to the MPEG encoder 8 via the switch 7.
Until then, the composite video signal from the video processing device 3 is supplied to the digital VTR 10.

That is, when all the editing processes have been completed, encoding is performed using MPEG2. This compressed composite video signal is supplied to the HDD 9 and recorded. Further, in this embodiment, the HDD is used to store the compressed video signal, but the random access is possible and the data can be transmitted to the MPEG decoders 12 and 14 in the subsequent stage without interruption. If,
It is also possible to use MO (Magneto Opties), a semiconductor memory, or the like.

Here, FIG. 2 is a block diagram showing a schematic operation principle of an example of the video storage / playback apparatus 2. The operation of FIG. 2 will be described in accordance with the above-described conventional example. A video signal a is supplied from the VTR 21, a video signal b is supplied from the VTR 22, a video signal c is supplied from the VTR 23, and a video signal d is supplied from the VTR 24 to the MPEG encoder 25.
Encoding is performed on the EG2 format data. MP
The EG encoded video signal a is written to the HDD 26 as a file A. Similarly, file B,
C and D are also written in the HDD 26.

First, the file A and the file B are selected from the HDD 26, and the MPEG decoders 27a and 27 are selected.
It is supplied to b and decoded. The decoded video signals A ′ and B ′ are combined to form a combined video signal A′B ′.
Are written to the digital VTR 28. Next, the file C is selected from the HDD 26, and the MPEG decoder 27
In c, the decoded video signal C'is combined with the composite video signal A'B 'selected from the digital VTR 28. The synthesized composite video signal A′B′C ′ is similarly supplied to the digital VTR 28 and recorded.

Further, the file D is selected from the HDD 26 and supplied to the MPEG decoder 27d. MPEG
The file D supplied to the decoder 27d is decoded and synthesized as a video signal D'with the composite video signal A'B'C 'selected from the digital VTR 28. As a result, the synthesized combined video signal A′B′C′D ′ is M
It is supplied to the PEG encoder 25, MPEG encoded, and recorded in the HDD 26 as a file ABCD.

As described above, since the encoded data can be encoded and decoded to the minimum, it is possible to suppress the deterioration of the video generated by the encoding and the decoding. . Further, in the above description, the decoded composite video signal is recorded in the digital VTR. However, it is also possible to record the encoded video signal on the HDD or a HDD different from the video signal.

Here, FIG. 3 is a flow chart showing an example of control for input video data. Video signal and composite video signal (hereinafter referred to as video data)
Is input and control proceeds to step 31. In the encoding of step 31, MPEG is applied to the input video data.
Whether or not encoding is performed, that is, whether the input video data is a video signal or a composite video signal is determined. If it is determined in step 31 (encoding) that MPEG encoding is to be performed, that is, if the input video data is determined to be a video signal, control is transferred to step 33, and in the encoder connection of step 33, , Switch, connect to encoder, control passes to step 34.

In the MPEG encoding of step 34, the input video signal is encoded in the MPEG format in order to apply compression, and the control moves to step 35. In step 31 (encoding), the MPEG
When it is determined that the encoding is not performed, that is, when the input video data is determined to be the composite video signal, the control proceeds to step 32. In the bypass connection of step 32, the switch is switched, the encoder is not passed, the bypass connection is made, and control is passed to step 35.

In the data writing of step 35, MP
The EG coded compressed video signal is written to the HDD, and the non-MPEG coded composite video signal is written to the digital VTR. In the file management of step 36, in step 35 (data writing),
The controller stores the address of the compressed video signal written in the HDD and manages it as a file. When step 36 (file management) ends, this flowchart ends.

Here, FIG. 4 is a flow chart showing an example of control for reading out video data. First, in the video data read in step 41, the video data is read from the HDD or the digital VTR, and step 4
Control is transferred to 2. With respect to the compressed video signal of step 42, in step 41 (reading of compressed video signal), it is determined whether the read video data is a compressed video signal or a composite video signal. If it is determined in step 42 (compressed video signal) that the read video data is a compressed video signal, the control proceeds to step 44.

In the decoder connection of step 44, the switch is switched and the connection to the decoder is made, step 45.
Control is transferred to. In the decoding of step 45, the read compressed video signal is decoded. The decoded video signal is transferred to the video output in step 46,
Video is output to an output device such as a monitor, and control ends.

If it is determined in step 42 that the video signal is a composite video signal, the control proceeds to step 43. In the bypass connection of step 43, the decoder is not passed and the bypass is connected, and step 46 (video output). The control shifts to, the image is output, and the control ends.

Here, FIG. 5 is a schematic block diagram when the user uses the edited video signal. N monitors 48 and N terminals 49 corresponding to the monitors 48 are connected to the video storage / playback apparatus 2. That is, the video storage / playback apparatus 2 is provided with N-channel input / output terminals. Here, in the video storage / playback apparatus 2, the video signal edited as described above is MPEG-coded for compression and recorded. A plurality of compressed video signals are recorded in the video storage / playback apparatus 2, and a selection signal is supplied from the terminal 49a to the video storage / playback apparatus 2 in order to view one compressed video signal from the recorded plurality of compressed video signals. To be done.

The video storing / reproducing apparatus 2 outputs the compressed video signal corresponding to the supplied selection signal to the monitor 48a. The monitor 48a outputs the video signal to the screen after decoding the supplied compressed video signal. Similarly, the selection signal is supplied from the terminal 49b, and the monitor 48b
The compressed video signal is supplied to, and after decoding, the video signal is projected. Here, the number of channels is determined so that the compressed video signal can be supplied to any of the monitors without interruption even if the selection signals are supplied to the video storage / playback apparatus 2 from all terminals at the same time. Furthermore, the compressed video signal is stored in the HDD included in the video storage / playback apparatus 2.
Any means can be appropriately selected as long as it is a means for outputting in an encoded state, such as a case where it is outputted from 9, a case where it is outputted through the switch 13 or the like.

[0029]

The video signal processing apparatus according to the present invention requires minimum decoding and / or coding when the video signal encoded in the MPEG2 format is edited. Therefore, it is possible to minimize deterioration of image quality caused by decoding and encoding.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of a video signal processing device according to the present invention.

FIG. 2 is a schematic diagram used for explaining the operation of the video signal processing device according to the present invention.

FIG. 3 is a flowchart showing an example of a switch operation in the video signal input section according to the present invention.

FIG. 4 is a flowchart showing an example of a switch operation in the video signal output section according to the present invention.

FIG. 5 is a block diagram showing an embodiment of a video signal processing device according to the present invention.

FIG. 6 is a block diagram showing an example of a conventional video signal production system.

[Explanation of symbols]

 1 Digital VTR 2 Video signal processing device 3 Video signal processing device 4 Monitor 5 Input device 6 Controller 7, 11, 13 Switch 8 MPEG encoder 9 HDD 12, 14 MPEG decoder

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI Technical display location H04N 5/92 H04N 5/92 H 9463-5D G11B 27/02 C

Claims (4)

[Claims] 1. A storage device that is randomly accessible and that stores video data, and a storage device that stores the compressed video data in the storage device via an encoding unit that compresses the video data. A first data path for recording, a second data path for recording the video data to the storage device without the intermediary of the encoding means, the first data path, and the second data path. There is provided a first switching means for switching and a decoding means for simultaneously outputting at least two types of reproduced video data recorded in the storage device and decoding the reproduced video data, and through the decoding means, A second switching means for switching between the third data path for decoding the reproduced video data and the fourth data path not passing through the decoding means is provided in the preceding stage of the decoding means. A video signal processing apparatus for. 2. A storage device that is randomly accessible and that stores video data, and a storage device that stores the compressed video data in the storage device via an encoding unit that compresses the video data. A first data path for recording, a second data path for recording the video data to the storage device without the intermediary of the encoding means, the first data path, and the second data path. There is provided a first switching means for switching and a decoding means for simultaneously outputting at least two types of reproduced video data recorded in the storage device and decoding the reproduced video data, and through the decoding means, Means for providing a second data switching means for switching the third data path for decoding the reproduced video data and the fourth data path not passing through the decoding means, in a stage preceding the decoding means; The video data edited from the storage device and the encoded video data are written to the storage device by the first data path, and the written video data is read out from the storage device and transmitted. A video signal processing device comprising: 3. The video signal processing device according to claim 1, wherein the encoding for compressing the video data is performed by MP.
EG2 (Moving Picture image coding Experts Gruop
A video signal processing device characterized by using phase 2). 4. The video signal processing apparatus according to claim 1 or 2, further comprising video processing means for performing edit processing on the reproduced video data read from the storage device. Characteristic video signal processing device.